Synthesis and optimization of reversible circuits—a survey
Reversible logic circuits have been historically motivated by theoretical research in low-
power electronics as well as practical improvement of bit manipulation transforms in …
power electronics as well as practical improvement of bit manipulation transforms in …
Quantum computing with NMR
JA Jones - Progress in nuclear magnetic resonance spectroscopy, 2011 - Elsevier
Quantum computers [1–4] are explicitly quantum mechanical systems that use phenomena
such as superposition and entanglement to perform computational tasks more efficiently …
such as superposition and entanglement to perform computational tasks more efficiently …
Optimization of quantum circuits for interaction distance in linear nearest neighbor architectures
Optimization of the interaction distance between qubits to map a quantum circuit into one-
dimensional quantum architectures is addressed. The problem is formulated as the …
dimensional quantum architectures is addressed. The problem is formulated as the …
Simulations of information transport in spin chains
Transport of quantum information in linear spin chains has been the subject of much
theoretical work. Experimental studies by NMR in solid state spin systems (a natural …
theoretical work. Experimental studies by NMR in solid state spin systems (a natural …
PAQCS: Physical design-aware fault-tolerant quantum circuit synthesis
CC Lin, S Sur-Kolay, NK Jha - IEEE Transactions on Very Large …, 2014 - ieeexplore.ieee.org
Quantum circuits consist of a cascade of quantum gates. In a physical design-unaware
quantum logic circuit, a gate is assumed to operate on an arbitrary set of quantum bits …
quantum logic circuit, a gate is assumed to operate on an arbitrary set of quantum bits …
Quantum circuit optimization by changing the gate order for 2D nearest neighbor architectures
W Hattori, S Yamashita - … International Conference, RC 2018, Leicester, UK …, 2018 - Springer
This paper proposes a new approach to optimize the number of necessary SWAP gates
when we perform a quantum circuit on a two-dimensional (2D) NNA. Our new idea is to …
when we perform a quantum circuit on a two-dimensional (2D) NNA. Our new idea is to …
Layout optimization for quantum circuits with linear nearest neighbor architectures
This paper is concerned with the physical design of quantum logic circuits. More precisely, it
addresses the problem of minimizing the number of required qubit reorderings (achieved by …
addresses the problem of minimizing the number of required qubit reorderings (achieved by …
Reducing the overhead of mapping quantum circuits to IBM Q system
A Matsuo, W Hattori, S Yamashita - 2019 IEEE International …, 2019 - ieeexplore.ieee.org
We propose an efficient approach to optimize the number of necessary SWAP gates when
we perform a quantum circuit on IBM Q system. Our idea is to change the order of quantum …
we perform a quantum circuit on IBM Q system. Our idea is to change the order of quantum …
Unifying quantum state transfer and state amplification
A Kay - Physical review letters, 2007 - APS
We present a Hamiltonian that can be used for amplifying the signal from a quantum state,
enabling the measurement of a macroscopic observable to determine the state of a single …
enabling the measurement of a macroscopic observable to determine the state of a single …
Effective one-body dynamics in multiple-quantum NMR experiments
E Rufeil-Fiori, CM Sánchez, FY Oliva… - Physical Review A …, 2009 - APS
A suitable NMR experiment in a one-dimensional dipolar coupled spin system allows one to
reduce the natural many-body dynamics into effective one-body dynamics. We verify this in a …
reduce the natural many-body dynamics into effective one-body dynamics. We verify this in a …